UA17157U - Dryer for granular material - Google Patents

Abstract

A dryer for granular material comprises a base, a pressure fan, a heat generator, a tank for wet material, a drying chamber with adjustable inclination in long direction, with gas-distribution grid as bottom, it is separated to sections, and an air distribution system. Air distributor is arranged as pressure chamber placed over the gas-distribution grid and connected to the sections of the gas-distribution grid, those are arranged with possibility to close with rotary gates at turn of which pressure chamber is connected to the sections pf the gas distribution grid.

Description

Description of the invention

The useful model refers to the technique of drying loose materials in a fluidized bed and can be used 2 in various industries, for example, in crop production for drying grain and oil crops.

Fluidized bed dryers are used for drying grain materials together with shaft, drum and other dryers, as they are the most efficient, less metal intensive, ensuring high productivity and good drying quality.

A known installation in a fluidized bed for loose materials (A.s. 846943 USSR, MKY E26817/10, VO18/44. 70 Fluidized bed chamber pulsator / G.L. Syrotkin, A.K. Petrovsky, V.P. Orlov and B P. Khodakov -

Mo2802329/24-06; Application 30.07.79; Bake 15.07.81, Bull. Mo26. - 4si), which contains a drying chamber with sectional gas distribution grids and a pulsator, divided by partitions into gas supply channels, in each of which two-bladed dampers are fixed on the common axis of rotation, installed with an angular shift relative to each other, thereby creating a pulsating flow. The flaps rotate under the action of the oncoming air flow 12, which creates a torque.

The disadvantages of this design include: the need for high tightness of the drying zone; supply of coolant almost simultaneously over the entire area of gas distribution grids does not ensure uniform movement of material along the gas distribution grid, regulation of productivity within wide limits.

The prototype is a dryer for granular materials (Pat. Mo13817A Ukraine, MKY P2683/092. Dryer for granular materials/ Chekanovkin O.O., Chekanovkin Yu.O. - Mo93006403; Claimed 03/18/1993; Published 04/25/1997,

Bul. Mo2. - 4c.4, which consists of a housing with a hopper, a gas distribution grid and a device for changing its longitudinal inclination, a drying chamber, and the lower part includes a pulsator, a system of air ducts and a fan.

The pulsator, with the help of which air distribution is carried out, is made in the form of an empty drum, which has a hole on one of the end surfaces and a hole on the side. Both openings are connected to each other by means of a curved partition, and the opening on the end surface is placed with the possibility of serial communication with the outlet openings of the air ducts, which in turn are connected to different sections of the gas distribution grids.

The most significant disadvantage of air distribution with the help of a pulsator is the unstable connection of the side opening of the pulsator with the openings of the air ducts, which is associated with the continuous rotation of the pulsator, as a result of which - the air flow is distributed for a large part of the time between the two openings of the air duct; at the same time, the pressure is weakened and becomes unstable. In addition, the system of air ducts for supplying the coolant from the pulsator to the sections of the gas distribution grid is complex, metal-intensive, and there are large pressure and heat losses in it. -

The purpose of the useful model is to improve the quality of drying by improving air distribution and supplying the coolant to different sections of the gas distribution grids most efficiently and with less pressure and heat loss.

З The set goal is achieved by the fact that in a dryer for granular materials, which consists of a base, a pressure fan, a heat generator, a hopper for wet material, a drying chamber, the longitudinal inclination of which is adjustable, and the basis of which is a gas distribution grid, divided into sections of a recirculation air duct and air distribution systems according to the useful model: "- the air distributor is made in the form of a pressure chamber located under the gas distribution grid and Z 50 is connected to the sections of the gas distribution grid by air ducts that are overlapped by rotary dampers. c When turning the flaps, the pressure chamber is connected to the sections of the gas distribution grid.

"Iz" - rotary dampers are made in the form of plates fixed on axes that can rotate in bearings; the rotation of the flaps is limited to two positions "open", when the pressure chamber is connected to the area of the gas distribution grid, and "closed". - the opening of rotary dampers is carried out using a chain transmission with ratchets in the form of protrusions that interact with the levers attached to the axes of the rotary dampers; closing is carried out with the help of a spring.

Figure 1 shows a longitudinal section of the proposed dryer. - On the base 1, a pressure fan 2 is installed, connected to a heat generator 3, which is then connected 20 to the gas distribution mechanism 5, which includes a pressure chamber 4, a series of air ducts with rotary valves 7, connecting the pressure chamber with sections of the gas distribution grid 8, the drying chamber 9, the longitudinal slope of which can be adjusted. At the beginning of the drying chamber there is a hopper for wet material 10, at the end a window 11 for unloading dried material. The drying chamber is connected to the suction opening of the fan by a recirculation duct 12. 29 On the outer part of the pressure chamber there is a chain transmission 13 with protrusions 14, which serves to drive the dampers.

Figure 2 shows an element of the air distributor, which includes an inclined chamber 4, an air duct 6, a damper 7, a gas distribution grid 8, a lever 15 connected to the axis of the damper, a chain gear 13 with protrusions 14 and a return spring 16. The damper is shown in the open position. 60 The dryer works as follows.

Wet grain material from the hopper 10 enters the gas distribution grid 8 with a certain layer thickness.

The drying chamber 9 is installed with the necessary inclination. At the same time, the fan 2 and the heat generator from the chain transmission 13 are turned on. When the chain transmission 13 is moved with the help of the running cams 14, the flaps 7 are opened, thereby, in turn, transferring the heat carrier to the air ducts 6, from where it sequentially flows to individual sections of the gas distribution grid. At the same time, the grain mass goes into a fluidized (boiling) state.

Then the next valve is opened, and the supply of the heat carrier moves to the next section.

This process occurs sequentially along all gas distribution grids 8. As a result, a wave of boiling grain material appears, which moves.

In the process of blowing is active

Ventilation and drying of grain material.

The layer of material located on the parts of the gas distribution grid that are not blown is in a stationary state and the temperature and humidity are equalized in the particles of the material.

The movement of grain material during drying, and therefore the duration of drying, occurs due to the combination of the inclination of the gas distribution grid and the action of fluidization.

The dried material is removed from the dryer through the exhaust device 11, and the spent coolant is partially or completely removed from the drying chamber

7/0 It is sucked by the fan 2 through the recirculation channel 12 for reuse, which allows to reduce the heat consumption for heating the coolant to the set temperature.

Claims (3)

The formula of the invention with, , 1. A dryer for granular materials, consisting of a base, a pressure fan, a heat generator, a hopper for wet material, a drying chamber, the longitudinal inclination of which is adjustable, and the basis of which is a gas distribution grid, divided into sections, and an air distribution system, which is distinguished by the fact that the air distributor is made in the form of a pressure chamber placed above the gas distribution grid and connected to sections of the gas distribution grid, which are made with the possibility of being overlapped by rotary dampers, when turning the pressure chamber is connected to the sections of the gas distribution grid. 2. The dryer according to claim 1, which differs in that the rotary dampers are made in the form of plates fixed on axes, which are made with the possibility of rotation in bearings, and the rotation of the dampers is limited to two "open" positions, when the pressure chamber is connected to the area of the gas distribution grid, and "closed". 3. The dryer according to claims 1 and 2, which differs in that the opening of the rotary shutters is carried out using a chain transmission with protrusions that interact with the levers attached to the axes of the rotary shutters, and - the closing of the rotary shutters is carried out using a spring. in IF) "- in yo - and? - -and - 1 that 60 b5